Instant hot water drinks

ABSTRACT

A product having an internal substance protected by a rugged exterior shell is disclosed. The internal substance is reactive with the exterior shell but is separated therefrom by a coating on an interior surface of the external shell so that the product can be stored for a long period of time without the internal substance reacting with the exterior shell. The coating is meltable so that, when desired, the product may be heated (e.g. immersed in hot water or exposed to heat) in order to melt the coating so that the internal substance can react with the external shell so that the internal substance can excrete out of the exterior shell.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of Provisional Patent Application Ser. No. 62/084,443, filed on Nov. 25, 2014, the entire contents of which are expressly incorporated herein by reference.

STATEMENT RE: FEDERALLY SPONSORED RESEARCH/DEVELOPMENT

Not Applicable

BACKGROUND

The various aspects and embodiments described herein relate to instant hot water drinks.

Current concentrates are currently marketed in large containers that the end user must measure and dissolve in liquid or in prepackaged quantities that must be broken open and dropped into water. Unfortunately, there are certain deficiencies in the art regarding these concentrates.

Accordingly, there is a need in the art for an improved method and device for delivering edible concentrates.

BRIEF SUMMARY

A capsule containing a concentrate that can be dissolved in hot water within about 10 seconds to about 30 seconds and a machine for fabricating the capsule is shown. The capsule may have a rugged food grade exterior shell fabricated from a gelatin material. This exterior shell protects a concentrate contained in the exterior shell during handling, storage and other deleterious effects from outside forces. A food grade paraffin may be coated on an interior surface of the exterior shell to protect the exterior shell from interaction with the concentrate disposed within the center of the capsule. The concentrate may be a water-based liquid or solid disposed within the food grade exterior shell and separated from that food grade exterior shell by coating the interior surface thereof with the food grade paraffin. During storage and handling, the food grade exterior shell is sufficiently rugged to allow for dropage, pressure, etc. without breaking the exterior shell and spilling the water-based liquid or solid concentrate. In order to mix the concentrate with water, the capsule is submerged in hot water which eventually melts the paraffin coating to allow the water-based concentrate to interact with the exterior shell to dissolve the exterior shell and release the concentrate.

More particularly, a capsule dissolvable in hot water is disclosed. The capsule may comprise a food grade exterior shell, a food grade paraffin coating and a water based liquid or solid. The food grade exterior shell may be fabricated from a gelatin material. The food grade paraffin coating may be disposed on an interior surface of the food grade exterior shell. The food grade paraffin may have a melting temperature at least about 130° F. The water based liquid or solid may be disposed within the food grade exterior shell and separated from the food grade exterior shell by the food grade paraffin coating. To release the water based liquid or solid, the capsule may be disposed within hot water having a temperature of at least about 130° F. By doing so, the food grade exterior shell is dissolved and the paraffin coating melts so that the water based solid or liquid interacts with the exterior shell to dissolve the exterior shell to release the water based liquid or solid into the water.

The food grade paraffin may have a melting temperature at least between 130° F. to 200° F.

The water based liquid or solid may mix homogenously with the water.

A thickness of a wall of the food grade exterior shell may be between about 0.2 mm and about 3 mm. A thickness of the food grade paraffin coating may be between about 0.05 mm and about 2 mm.

The food grade paraffin coating may be oil based.

The food grade exterior shell may be sufficiently rugged for transportation of the capsule over trucks, trains and planes.

The water based liquid or solid may be coffee extract, tea extract, food flavoring or combinations thereof.

In another aspect, a method of producing a capsule which is dissolvable in hot water is disclosed. The method may comprise the steps of forming first and second ribbons of a gelatin material, each of the first and second ribbons defining an interior surface and an exterior surface; coating the interior surfaces of the first and second ribbons with a food grade paraffin; guiding the first and second ribbons between first and second rollers; disposing a water based liquid or solid between the first and second ribbons; and molding a plurality of capsules with the first and second rollers to encapsulate the water based liquid or solid within the capsules.

The coating step may comprise the step of spraying the food grade paraffin in liquid form on the interior surfaces of the first and second ribbons. The forming step may comprise the step of forming the first and second ribbons to be between about 0.2 mm and about 3 mm. The disposing step may includes the step of injecting a material having a viscosity between about 5,000 cP and about 10,000 cP.

BRIEF DESCRIPTION OF THE DRAWINGS

These and other features and advantages of the various embodiments disclosed herein will be better understood with respect to the following description and drawings, in which like numbers refer to like parts throughout, and in which:

FIG. 1 is a perspective view of a plurality of capsules disposed within the container;

FIG. 2 is a cross-sectional view of one of the capsules shown in FIG. 1;

FIG. 3 is a flowchart for forming the capsule;

FIG. 4 is a front elevational view of a machine for forming the capsule;

FIG. 5 is an enlarged top perspective view of a portion of the machine shown in FIG. 4;

FIG. 6 is an enlarged bottom perspective view of a portion of the machine shown in FIG. 4;

FIG. 7 illustrates the process shown in FIG. 4 with an additional sprayer for spraying on additives;

FIG. 8 is an alternate embodiment of the process shown in FIG. 4; and

FIG. 9 illustrates the process shown in FIG. 8 with the addition of sprayers for spraying on additives.

DETAILED DESCRIPTION

Referring now to the drawings, a capsule 10 is shown. The capsule does not dissolve even when exposed to humid conditions. As such, the capsule 10 retains its shape and integrity during storage over a long period of time and transportation. The capsule 10 has an exterior shell 12 that is sufficiently rugged to handle normal handling during transportation and storage without cracking or breaking. It also does not degradate due to moisture in the air. An interior surface of the exterior shell 12 may be coated with a paraffin 14 and provides a layer of separation between the exterior shell 12 and a concentrate 16 disposed within the capsule 10 so that the concentrate 16 does not degrade the exterior shell 12. In this regard, the exterior shell 12 may be fabricated from a water dissolvable material and the concentrate 16 may be a water-based material. Due to the paraffin coating 14, the water in the concentrate 16 does not dissolve or degrade the exterior shell 12. To release the concentrate 16, the capsule 10 may be placed in hot water wherein the hot water is at a temperature sufficient to melt the paraffin 14. By melting the paraffin 14, the concentrate 16 then interacts with the exterior shell 12 which in our example would dissolve the exterior shell 12 so that the concentrate 16 excretes out of the exterior shell 12.

Referring now to FIG. 1, a plurality of capsules 10 is shown as being contained within a container 18. The capsule 10 has a rugged exterior shell 12 that is capable of withstanding normal forces due to transportation over truck, train and plane and also the weight of other capsules 10 so that the concentrate 16 does not leak out of the capsule 10 during storage and handling. The exterior shell 12 may be fabricated from a food grade gelatin material. By way of example and not limitation, the food grade gelatin material may be amylose, pullulan, guar gum, callaneenan, cellulose or combinations thereof. The exterior shell 12 may have a spherical configuration and be approximately 0.2 mm thick 20.

The food grade gelatin material may be dissolvable in water. Preferably, the food grade gelatin material dissolves relatively slowly in cold water but quickly in hot water. By way of example and not limitation, the amount of food grade gelatin material and thickness of the exterior shell 12 may be adjusted such that the exterior shell 12 dissolves within about 10 to about 30 seconds when submerged in hot water at a temperature above 130° F.

Although the capsule 10 has been described as having a food grade exterior shell 12 fabricated from a gelatin material, other types of materials are also contemplated including but not limited to thermoplastic starch, polyvinyl alcohol, aliphatic copolyester, aliphatic/aromatic copolyester, polyactic acid, and blends of these polymers, and also polyethelene, polyethylene terephthalate and polyvinyl chloride. These other materials may be non-food grade materials.

An interior surface of the exterior shell 12 may be coated with paraffin 14. The paraffin 14 acts as a barrier between the exterior shell 12 and the concentrate 16 located within the capsule 10. The paraffin 14 is inert and does not react with the concentrate 16 or the exterior shell 12 so that the concentrate 16 can be preserved over a long period of time. The paraffin 14 may be a food grade paraffin 14 and may be coated on the interior surface of the exterior shell 12. In order to release the concentrate 16, the capsule 10 may be heated to a temperature above the melting temperature of the paraffin 14. By way of example and not limitation, paraffin 14 may have a melting temperature of about 130° F. As such, in order to release the concentrate 16, the capsule 10 may be placed within hot water or otherwise heated which would dissolve the exterior shell 12 from the outside. Also, the paraffin 14 would melt in order to allow the concentrate 16 to interact with the exterior shell 12 to dissolve the exterior shell 12 from the outside. The concentrate 16 is released and quickly dissolved in the hot water within about 10 seconds to about 30 seconds.

The paraffin 14 may be sprayed on the interior surface of the exterior shell 12 during manufacture of the capsule 10. The paraffin 14 may have a thickness 22 of about 0.2 mm. Although the paraffin 14 is preferably sprayed on the interior surface of the exterior shell 12, the paraffin 14 may also be melted and spread over the interior surface of the exterior shell 12. The thickness 22 of the paraffin 14 may be adjusted (e.g., increased) in order to ensure that even minor degradation in the paraffin 14 will not cause the concentrate 16 to be placed in contact with the exterior shell 12.

The paraffin 14 is described as having a melting temperature of about 130° F. However, other materials having higher or lower melting temperatures are also contemplated. These other materials may also be food grade so that they can be consumed by a person.

The concentrate 16 may be a water-based liquid or a solid. When the paraffin 14 is melted away, the water content within the water-based liquid or solid reacts with the exterior shell 12 to dissolve the same from the inside-out. In this manner, the interaction speeds up the disintegration of the capsule 10 when heated such as by placing the capsule 10 in hot water. The concentrate 16 may be dissolvable in water so that when the exterior shell 12 dissolves in water and the paraffin 14 melts away, the concentrate 16 may mix with the water. By way of example and not limitation, the concentrate 16 may dissolve in water in order to provide for a homogeneous solution or may be dispersed within the water in order to provide for a heterogeneous solution. Moreover, the concentrate 16 may be partially dissolvable in water to provide for a mixed homogeneous and heterogeneous solution/mixture.

Referring now to FIG. 3, a process for manufacturing the capsule 10 is shown. The process may begin with providing 100 a gelatin formulation. The gelatin is melted and formed 102 into two ribbons 24 a, b. As shown in FIG. 4, two ribbons 24 a, b are shown which each form one half of the exterior shell 12 of the capsule 10. Simultaneously, a paraffin formulation is provided 104 and is melted so that the melted paraffin 14 can be disposed 106 (e.g., sprayed or spread) on a surface of the ribbon 24 a, b that defines the interior surface of the exterior shell 12. Sprayers 26 a, b may be placed above the ribbons 24 a, b in order to spray the melted paraffin 14 on the ribbon 24 a, b. A water dissolvable material (e.g., concentrate 16) may be introduced 108 into a cavity formed by the ribbons 24 a, b within injector 28. First and second rotary clamshells 30 a, b form 110 the capsule 10 into a spherical shape, as shown in FIG. 4.

Referring now to FIG. 5, a partially enlarged view of the machine shown in FIG. 4 is shown. The ribbon 24 a is guided on a series of rollers 32, 32 a to a position between the clamshells 30 a, b. The sprayer 26 a is located above the ribbon 24 a and positioned so that the melted paraffin covers the entire width of the ribbon 24 a. The ribbon 24 may travel at a slow speed so that the melted paraffin 14 dries up or is semi-malleable before the concentrate 16 is injected with the injector 28 and the concentrate 16 is formed. The rollers 32 a, b may have a plurality of semi-spherical cavities 34 to contour the ribbon 24 a, b into the spherical shape configuration. The clamshells 30 a, b may have a plurality of semi-spherical cavities 34 that mate with each other to form the spherical configuration of the capsule 10. As the clamshells 30 a, b rotate, corresponding semi-spherical cavities 34 a, b mate up with each other and form the spherical configuration of the capsule 10. The clamshells 30 a, b may be heated so that the ribbons 24 a, b may be formed and cut. The injector 28 pressurizes the interior of the cavity formed by the ribbons 24 a, b in order to push the ribbons 24 a, b into conformity with the configuration of the semi-spherical cavity 34.

Thereafter, the capsule 10 is attached to the joined ribbon 24 a, b and eventually falls to the sides and is then collected in the container 18.

Although the capsule 10, and more particularly, an outer surface of the exterior shell 12 was described as having a spherical configuration, other configurations are also contemplated such as cube, pyramidal, etc. The cavities 34 a, b would form one half of the alternate configuration.

In another embodiment, the exterior shell 12 may be fabricated from a material that is non-dissolvable in water. However, the material of the exterior shell 12 may be reactive with a substance 16. The interior surface of the exterior shell 12 may be coated with a coating 14 that is non-reactive with the substance 16 but may be melted at a temperature. The interior of the exterior shell 12 and the coating 14 may hold the substance 16 or a derivative thereof. When the product is immersed in water, the exterior shell 12 does not disintegrate to expose the substance 16 within the product. However, when the product is heated by disposing the product in hot water or applying heat to the product, the coating 14 melts away so that the substance 16 interacts with interior surface of the exterior shell 12. Such interaction disintegrates or dissolves the exterior shell 12 so that the substance 16 leaks out of the exterior shell 12.

Referring now to FIG. 7, the process for manufacturing the capsule 10 shown in FIG. 3 may also have an additional sprayer 40 a, 40 b. The sprayers 40 a, b may spray an additive. By way of example and not limitation, such additives may be a preservative, vitamin fortification, flavor enhancement or combinations thereof. Once the additive is sprayed onto the surface of the ribbon 24 a, b, the paraffin 14 locks the additive between the paraffin 14 and the ribbon 24 a, b so that the concentrate 16 does not interact with the additive.

Referring now to FIG. 8, in lieu of the sprayers 26 a, b for spraying paraffin 14 on the ribbons 24 a, b, it is also contemplated that a paraffin ribbon 42 a, b may be formed and fed between the rotary clamshells 30 a, b which attaches (e.g., fuses) the ribbon 24 a to ribbon 42 a and ribbon 24 b to ribbon 42 b. Referring now to FIG. 9, sprayers 40 a, b may spray additives on the ribbons 24 a, b. The additive 44 may be locked between ribbons 24 a, b and 42 a, b.

The concentrate 16 discussed herein may be a coffee extract, tea extract, food flavoring or combinations thereof. The concentrate 16 may be a coffee extract so that upon dissolution into hot water, one capsule dissolved in 8 fluid ounces of hot water will form regular strength hot coffee. Different concentrations of the concentrate 16 are also contemplated in that the concentrate 16 may have a potency so that one or more capsules mixed in a certain number of fluid ounces would form regular strength hot coffee. By way of example, three (3) capsules dissolved in 8 fluid ounces of hot water may form regular strength hot coffee. By inserting more or less concentrate in hot water, the strength of the hot coffee may be regulated. More concentrate will produce stronger coffee. Less concentrate will produce weaker coffee. Although the various aspects and embodiments were discussed in relation to the concentrate, it is also contemplated that the concentrate 16 may be non-concentrated or normal concentration for the purposes of mixing a substance in hot water.

The above description is given by way of example, and not limitation. Given the above disclosure, one skilled in the art could devise variations that are within the scope and spirit of the invention disclosed herein, including various ways of forming the capsules. Further, the various features of the embodiments disclosed herein can be used alone, or in varying combinations with each other and are not intended to be limited to the specific combination described herein. Thus, the scope of the claims is not to be limited by the illustrated embodiments. 

What is claimed is:
 1. A capsule dissolvable in hot water, the capsule comprising: a food grade exterior shell fabricated from a gelatin material; a food grade paraffin coating disposed on an interior surface of the food grade exterior shell, the food grade paraffin having a melting temperature between about 160° F. and about 200° F.; a flavor additive disposed between the food grade paraffin coating and the food grade exterior shell; a water based liquid disposed within the food grade exterior shell and separated from the food grade exterior shell by the food grade paraffin coating; wherein disposing the capsule within water having a temperature of at least about 160° F. dissolves the food grade exterior shell and melts the food grade paraffin coating to release the water based liquid into the water.
 2. The concentrate of claim 1 wherein the water based liquid mixes homogenously with the water.
 3. The concentrate of claim 1 wherein a thickness of a wall of the food grade exterior shell is between about 0.2 mm and about 3 mm, and a thickness of the food grade paraffin coating is between about 0.05 mm and about 2 mm.
 4. The concentrate of claim 1 wherein the food grade paraffin coating is oil based.
 5. The concentrate of claim 1 wherein food grade exterior shell is sufficiently rugged for transportation over trucks, trains and planes.
 6. The concentrate of claim 1 wherein the water based liquid is coffee extract, tea extract, food flavoring or combinations thereof.
 7. A method of producing capsule which is dissolvable in hot water, the method comprising the steps of: forming first and second ribbons of a gelatin material, each of the first and second ribbons defining an interior surface and an exterior surface; disposing a flavor additive to the interior surface of the first and second ribbons; spraying the interior surfaces of the first and second ribbons with a coat of a food grade paraffin in liquid form to lock the flavor additive between the coating of food grade paraffin and the first and second ribbons until capsule is dissolved in hot water wherein the food grade paraffin has a melting temperature between about 160° F. and about 200° F.; guiding the first and second ribbons between first and second rollers; disposing a water based liquid between the first and second ribbons and separated from the first and second ribbons and the flavor additive with the coating of the food grade paraffin; molding a plurality of capsules with the first and second rollers to encapsulate the water based liquid within the capsules.
 8. The method of claim 7 wherein forming step comprises the step of forming the first and second ribbons to be between about 0.2 mm and about 3 mm.
 9. The method of claim 7 wherein the disposing step includes the step of injecting a material having a viscosity between about 5,000 cP and about 10,000 cP. 